A miniaturization scheme of flexible inkjet-printed Ag/AgCl(s) reference electrodes using the ionic liquid (IL)-typed PVC membrane with the addition of graphene for electrochemical sensing applications

IF 6.5 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Sensors and Actuators Reports Pub Date : 2023-06-01 DOI:10.1016/j.snr.2023.100145
Kun-Lin Tsou, Yu-Ting Cheng
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引用次数: 1

Abstract

In this paper, we study size effects on the reference electrode performance of flexible inkjet printed electrochemical (EC) sensors and present a scheme to print a reliable miniaturized Ag/AgCl(s) electrode for biomedical device applications. The newly printed electrode only with a size of 6900 μm2, i.e., equivalent to 83 × 83 μm2 can perform as well as the commercial one. Experimental results show the electrode impedance is effectively reduced via the incorporation of graphene flakes into the ionic liquid-based PVC film coated on the electrode to accelerate the ion-transferring rate of the chloride ions, thereby facilitating rapid chloride ion redistribution for the film to reach a quick potential balance with the reference electrode for open circuit potential (OCP) measurement. The EC sensors using the reference electrode can exhibit a fixed OCP output with a low potential variation, quick response time and potential drift, which are ±2.1 mV variant, 50 s, and 23.5 μV/h, respectively regardless of the concentration of chloride ions in the tested environment.

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采用离子液体(IL)型PVC膜,添加石墨烯,用于电化学传感应用的柔性喷墨印刷Ag/AgCl(s)参考电极的小型化方案
在本文中,我们研究了尺寸对柔性喷墨印刷电化学(EC)传感器参考电极性能的影响,并提出了一种用于生物医学设备应用的可靠小型化Ag/AgCl(s)电极的方案。新打印的电极尺寸仅为6900 μm2,即相当于83 × 83 μm2,其性能与商用电极相当。实验结果表明,将石墨烯薄片掺入涂覆在电极上的离子液体PVC薄膜中,可以有效降低电极阻抗,加快氯离子的离子转移速率,从而促进氯离子快速重新分布,使薄膜与基准电极达到快速电位平衡,用于开路电位(OCP)测量。采用该参比电极的EC传感器,无论测试环境中氯离子的浓度如何,都具有固定的OCP输出,电位变化小,响应时间快,电位漂移值分别为±2.1 mV, 50 s和23.5 μV/h。
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来源期刊
CiteScore
9.60
自引率
0.00%
发文量
60
审稿时长
49 days
期刊介绍: Sensors and Actuators Reports is a peer-reviewed open access journal launched out from the Sensors and Actuators journal family. Sensors and Actuators Reports is dedicated to publishing new and original works in the field of all type of sensors and actuators, including bio-, chemical-, physical-, and nano- sensors and actuators, which demonstrates significant progress beyond the current state of the art. The journal regularly publishes original research papers, reviews, and short communications. For research papers and short communications, the journal aims to publish the new and original work supported by experimental results and as such purely theoretical works are not accepted.
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